SU872115A1 - Machine for capacitor stored-energy welding - Google Patents

Description

(54) CONDENSING MACHINE

I

The invention relates to the field of welding production, welding capacitor machines of small n average ms with a heating pulse and can be used for welding ferrous and non-ferrous metals.

In the present, a second capacitor bank is used to obtain a heating pulse, which requires a charge of charge and a charge control circuit.

The MSK-16O2 condenser machine seam with two batteries of capacitors with charging and charging circuits is known. In this machine, a heating pulse is obtained by discharging one of the capacitor banks. The energy of the heating pulse is regulated by the nyTOvi capacitance battery capacity change, which can be superimposed on the main fl.

Known welding capacitor machine, with two capacitor banks

and two separate charge and discharge circuits. This scheme allows you to expand the technological and technological capabilities of the welding machine due to a wider range of changes in the welding machine.

The disadvantages of the known machines are the presence of a second battery of capacitors, charge circuits and charge control, a large level of interference when the thyristors work in parallel.

The aim of the invention is to simplify the machine without reducing its technological capabilities.

The goal is achieved by a t & l that a machine for condit welding, containing an alternating voltage source connected to a rectifier, a capacitor battery, connected through a discharge circuit to a welding transformer and also to a series-connected limiting resistance and thyristors with their control unit, is assembled on the thyristors DC switch connected to one of the poles of the rectifier - 3 Miguel, the other pole of the latter is connected to the capacitor battery and the other end of the welding transformer the anode is still One thyristor is connected to an alternating voltage source, and its cathode is connected to a welding transformer, the limiting resistance is connected to a direct current switch. The drawing shows the diagram of the machine. In the diagram, the transformer I is connected to the rectifier 2 and the anode of the thyristor 3, The parallel circuit to the rectifier is connected to a series circuit of thyristor switch 4, limiting resistance 5 and capacitor bank 6, through the discharge: The device 7 is switched on the welding circuit The format 8, the cathode T1 of the sensor 3 is connected to the discharge unit. The control electrodes of the thyristors are connected to the control unit 9. The machine's circuit works as follows. When you send a command from the control unit 9 to the thyristor battery 4, the battery of the capacitors 6 is charged through the limiting resistance 5, the thyristor switch 4, and the charge transformer I. After the charge of the battery of capacitors 6 is finished, the thyristor key 4 is triggered, the charge is turned off, and the operation of the thyristor key does not require direct communication with the minus rectifier 2 n of setting the limit itelny resistance in the negative circuit capacitor bank. Such a construction of the charge circuit allows connecting the end of the primary winding of the transformer with minus rectifier 2 and minus capacitor battery 6. The start of the digging of the welding transformer 8 is connected to the discharge unit 7 and the thyristor. When you receive a command to start the welding, the thyristor 3 turns on and welding transformer is supplied voltage from a part of the secondary winding of the charging i-transformer I, and a heating pulse passes through the circuit I, 3, 8, 2. The main welding pulse passes when a command is received from the control unit 9 per block 7 next to the heated pulse. This circuit can be used in point and suture capacitor machines with a heating pulse and a charge transformer. 154 The greatest effect can be obtained on seam capacitor machines, in which the power of a charging transformer makes it possible to obtain the necessary power of a heating pulse. Thus, the use of a thyristor switch, which allows the limiting resistance to be included in the positive charge circuit of the capacitor bank, makes it possible to obtain a heating impulse directly from the AC source, using one rectifier anode for passing only one half-wave of the network. The economic effect of the implementation of this invention is ShbOOp. and is to increase the reliability of the machine by reducing the level of interference and simplifying the circuit, reducing the size, weight and cost of the machine. The scope of the invention A capacitor welding machine comprising an alternating voltage source connected to an expander, a capacitor bank through a discharge circuit connected to a welding transformer, as well as a series-connected limiting resistance and thyristors with their control unit, characterized in that In order to simplify the machine, without narrowing its technological capabilities, the G1FIS tori has a DC switch connected to one of the rectifier poles, the other pole of the latter is connected to ondensatornoy battery and the other end of the welding transformer, an anode of another thyristor is connected to an AC voltage source, and its cathode connected to the welding transformer limiting resistance connected to the key DC. Sources of information, prGu.vote attention in the examination 1.Electrotechnical industry. Scientific abstract collection. Seri Electric Welding, 1977, No. 1, p. 8-10. 2. USSR author's certificate number 617898, cl. In 23 K 11/26, 15.12.76.

Claims (1)

Claim A capacitor welding machine comprising an AC voltage source connected to a rectifier, a capacitor battery through a discharge circuit connected to a welding transformer, as well as a series-connected limiting resistance and thyristors with their control unit, characterized in that, in order to simplify the circuit of the machine, without narrowing its technological capabilities, a dc key is made on the tiris mountains connected to one of the poles of the rectifier, the other pole of the latter is connected to the capacitor the battery and the other end of the welding transformer, connect the anode of another thyristor to an AC voltage source, and its cathode is connected to the welding transformer, the limiting resistance is connected to the DC switch.